Syllabus Edition

First teaching 2023

First exams 2025

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The Metallic Model (SL IB Chemistry)

Exam Questions

1 hour18 questions
1a2 marks

Describe the bonding in solid sodium.

1b2 marks

Potassium has a lower melting point than sodium does.

Explain why.

1c2 marks

Magnesium is in the same period as sodium, but has a much higher melting point.

Explain why.

1d2 marks

Predict whether magnesium is harder or softer than sodium and explain why.

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2a2 marks

Copper is a common metal used in wiring.

Explain the electrical conductivity of copper.

2b2 marks
Explain why copper is also very malleable.
2c1 mark

Copper is used in alloys such as brass and bronze.

Outline why copper alloys are usually less malleable than pure copper.

2d2 marks

Copper is used for water pipes.

Suggest two properties of copper that make it suitable for this use, excluding malleability.

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3a2 marks

Potassium ions are vital for the functioning of all living cells and is a Group 1 metal

Describe the bonding in a Group 1 metal.

3b2 marks

Potassium reacts readily with oxygen to form potassium oxide. Write a balanced symbol equation for this reaction including state symbols.

3c2 marks

Explain why potassium has a higher melting point than rubidium.

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1a3 marks

Magnesium is a lightweight metal used for the manufacturing of car seats. Describe the structure and bonding present in solid magnesium.

1b3 marks

Magnesium has a considerably higher boiling point than sodium. Explain this difference, despite the fact both elements are in period 3.

1c3 marks

Explain, with reference to bonding, the principal property of a metal that makes it suited to manufacturing shaped objects such as railings.

1d2 marks

Many alloys are harder than their constituent metal elements alone.

Outline the reason for this with reference to the structure of metal alloys.

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2a4 marks

The elements sodium, aluminium, silicon, phosphorus and sulfur are in period 3 of the periodic table.

Describe and explain the general trend in melting points of the metals in period 3.

2b3 marks

Identify, with reasoning, which of the period 3 metals has the highest melting point.

2c2 marks

Explain, by reference to the intermolecular forces, why sulfur has a higher melting point than phosphorus.

2d2 marks

Although the molar masses of ICl and Br2 are very similar, the boiling point of ICl is 97.4 °C and that of Br2 is 58.8 °C.

Explain the difference in these boiling points in terms of the intermolecular forces present in each liquid.

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3a2 marks

Copper is a transition metal. Describe the bonding in metals.

3b2 marks

Aluminium and copper can be used to make the alloy duralumin.

Explain why an aluminium-copper alloy is harder than pure aluminium.

3c2 marks

This question is about the chlorides of copper and aluminium.

 

i)
State the type of bonding present in copper(II) chloride which melts at 771 K.
[1]

 

ii)
The chloride of aluminium, AlCl3, melts 465 K. Suggest why the melting point is so much lower than that of CuCl2.
[1]
3d2 marks

Both copper and benzene have delocalised electrons. Explain why both structures have delocalised electrons, copper conducts electricity, but benzene does not.

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1a2 marks

Explain why transition metals, such as iron, alloy best with other transition metals, such as nickel.

1b2 marks

State the name of the most common type of iron alloy and the element it is alloyed with.

1c3 marks

Describe and explain the trend in the melting points of all the Group 1 metals as you descend the group.

Use section 8 of the Data book.

1d3 marks

Describe and explain the trend in melting points across the Period 3 metals of sodium, magnesium and aluminium.

Use section 8 of the Data book.

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2a2 marks
Explain why pure gold is not often used to make jewellery.

2b4 marks

Gold is often alloyed with other metals.

i)
Suggest why alloying gold is useful.

[2]

ii)
Give some examples of metals that are commonly alloyed with gold.

[2]

2c3 marks

Silver is the best metal electrical conductor.

i)
Explain how silver conducts electricity so well.

[2]

ii)
Explain why copper is often used instead of silver in wiring.

[1]

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3a4 marks

Lead is an excellent roofing material. It is malleable and resistant to corrosion. Lead rapidly becomes coated with basic lead carbonate which protects it from further corrosion.

Lead has a typical metallic structure.

i)
Explain why there are attractive forces in a metallic structure.

[2]

ii)
Explain why a metal, such as lead, is malleable.

[2]

3b2 marks

The alloy solder can be made by heating together the metals lead and tin. The melting points of tin and lead are 232 °C and 328 °C respectively, whilst the solder melts at a lower temperature than either of these. 

Explain why the melting point of solder is lower than its constituent metals.

3c2 marks

Whilst solder has a lower melting point than lead and tin, it is stronger.

Explain, on an atomic level, why the addition of other elements and forming an alloy has this effect.

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